Tag: DirtyCow

Nearly a year after the disclosure of the Dirty COW vulnerability that affected the Linux kernel, cybercriminals have started exploiting the vulnerability against Android users.

Publicly disclosed last year in October, Dirty COW was present in a section of the Linux kernel—a part of virtually every Linux distribution, including Red Hat, Debian, and Ubuntu—for years and was actively exploited in the wild.

Security researchers from Trend Micro published a blog post on Monday disclosing that the privilege escalation vulnerability (CVE-2016-5195), known as Dirty COW, has now been actively exploited by a malware sample of ZNIU, detected as AndroidOS_ZNIU.

The ZNIU malware was detected in more than 40 countries last month, with the majority of the victims found in China and India. The malware was also detected in the U.S., Japan, Canada, Germany, and Indonesia. As of this writing, more than 5,000 affected users have been detected.

The malware uses the Dirty COW exploit to root Android devices via the copy-on-write (COW) mechanism in Android’s Linux kernel and install a backdoor which can then be used by attackers to collect data and generate profit through a premium rate phone number.

ZNIU’s leveraging of Dirty COW only works on Android devices with ARM/X86 64-bit architecture. However, this recent exploit can bypass SELinux and plant a root backdoor, while the PoC can only modify the service code of the system.

INFECTION CHAIN

The ZNIU malware often appears as a porn app downloaded from malicious websites, where users are tricked into clicking on a malicious URL that installs the malware-carrying app on their device. Once launched, ZNIU will communicate with its C&C server. If an update to its code is available, it retrieves it from the C&C server and loads it into the system. Simultaneously, the Dirty COW exploit will be used to provide local privilege escalation to overcome system restrictions and plant a backdoor for potential remote control attacks in the future.

After entering the main UI of the device, the malware will harvest the carrier information of the user. It then transacts with the carrier through an SMS-enabled payment service, allowing the malware operator to pose as the device owner. Through the victim’s mobile device, the operator behind ZNIU will collect money through the carrier’s payment service. In one of the samples, in its code the payments were directed to a dummy company, which, based on network traffic, was located in a city in China. When the SMS transaction is over, the malware will delete the messages from the device, leaving no sign of the transaction between the carrier and the malware operator. If the carrier is outside China, there will be no possible SMS transaction with the carrier, but the malware will still exploit the system to plant a backdoor.

The main logic of ZNIU’s native code works as follows:

1. Collect the model information of the device.

2. Fetch appropriate rootkits from the remote server.

3. Decrypt the exploits.

4. Trigger exploits one by one, check the result, and remove exploit files.

5. Report if the exploit succeeded or failed.

The researchers found the malware has already infected more than 5,000 Android users across 40 countries in recent weeks, with the majority of victims found in China and India, while other resides in the United States, Japan, Canada, Germany and Indonesia.

Google has released an update for Android that, among other fixes, officially fixes the Dirty COW vulnerability. The tech giant also confirmed that its Play Protect now protects Android users against this malware.

The easiest way to prevent yourself from being targeted by such clever malware is to avoid downloading apps from third-party sources and always stick to the official Google Play Store.